Elevated hepatic mitochondrial oxidative capacities in cold exposed rats

1. Hepatic mitochondrial oxidative capacities were studied in rats exposed to cold for periods ranging from 5 to 15 days. The mitochondria obtained in this study were well coupled as shown by RCR and ADP/O ratios. 2. The liver mitochondria of cold exposed rats showed significantly increased respiratory rates (ng atoms of oxygen consumed min-1 mg prot-1), starting from day 10 of cold exposure, using lipid and non-lipid substrates. 3. For non-lipid substrates, the elevated respiratory rates found in the mitochondria could indicate an increased capacity to oxidize these substrates. For the lipid substrate, on the other hand, an enhanced oxidation through Krebs-cycle of a part of acetyl-CoA otherwise utilized to form ketone bodies, could also occur. 4. Taken together the results suggest that, during cold exposure, liver mitochondria could participate in cold adaptation mechanisms, by improving ATP production.     

Resistance to hepatic action of vasopressin in genetically obese (ob/ob) mice.

1. Fatty acid synthesis, measured in the perfused liver of genetically obese (ob/ob) mice with 3H2O or [14C]actate, did not show the inhibition by [8-arginine]vasopressin (antidiuretic hormone) that is observed in livers from normal mice. 2. Hepatic glycogen breakdown in obese mice was stimuulated by vasopressin, but not as extensively as in lean mice. 3. If obese mice received a restricted amount of food, then fatty acid synthesis still did not respond to vasopressin, but glycogen breakdown was fully stimulated. 4. Cholesterol synthesis was not inhibited by vasopressin in livers from obese mice. 5. Vasopressin inhibited fatty acid synthesis in intact lean mice, but not in obese animals. 6. These results suggest that genetic obesity could be due to an inborn error within the mechanisms (other than adenylate cyclase) which mediate responses to extracellular effectors.     

Glucose tolerance in aging obese (ob/ob) and lean mice

Examination of the glucose tolerance in younger (3 month) and older (6 month) obese mice revealed that most of their postinjection hyperglycemia arises from the disproportionately large glucose responses to the injection/bleeding procedures rather than from the added glucose. Simultaneous measurements of circulating glucagon, corticosterone and insulin indicated that simple differences in the levels of these hormones, in their circulating ratios, or in the magnitude of the hormone responses to stimulation did not fully account for the "stress"-induced hyperglycemia.     

Zinc supplementation on serum levels and hepatic conversion of thyroid hormones in obese (ob/ob) mice

The supplemental effects of zinc on thyroid status in obese (ob/ob) mice were studied. Four-week-old obese mice and their lean controls were fed either a basal diet or a zinc-supplemented diet (200 mg/kg diet) for 8 wk. Following the 8-wk basal diet, obese mice had lower serum T4 values, as well as hepatic T4 and T3 values, than lean mice (p < 0.05). A significant decrease in hepatic 5′-deiodinase activity was also observed in obese mice. Dietary zinc supplementation significantly reduced serum T4 levels in both the obese and lean mice. However, the zinc-supplemented effects on diminishing hepatic T4 and T3 values, as well as on 5′-deiodinase activities, were found only in obese mice (p < 0.05). Furthermore, the 5′-deiodinase activities in hepatic microsomal pellets after incubation with various zinc concentrations (0.5, 1.0, and 2.5 mM) were also examined. The 5′-deiodinase activities, in hepatic samples from all mice, were significantly attenuated by zinc treatments. However, this effect was more predominant in obese mice following the addition of 0.5 mM zinc. This study suggests that a lower hepatic 5′-deiodinase activity, resulting from a higher zinc level, might be related to abnormal energy metabolism in theob/ob mice.     

Extracellular superoxide dismutase in tissues from obese (ob/ob) mice

We have examined the protein content and gene expression of three superoxide dismutase (SOD) isoenzymes in eight tissues from obese ob/ob mice, particularly placing the focus on extracellular-SOD (EC-SOD) in the white adipose tissue (WAT). Obesity significantly increased EC-SOD level in liver, kidney, testis, gastrocnemius muscle, WAT, brown adipose tissue (BAT), and plasma, but significantly decreased the isoenzyme level in lung. Tumor necrosis factor-alpha and interleukin-1beta contents in WAT were significantly higher in obese mice than in lean control mice. Immunohistochemically, both WAT and BAT from obese mice could be stained deeply with anti-mouse EC-SOD antibody compared with those from lean mice. Each primary culture per se almost time-dependently enhanced EC-SOD production, and overtly expressed its mRNA. The loss of heparin-binding affinity of EC-SOD type C with high affinity for heparin occurred in kidney of obese mice. These results suggest that the physiological importance of this SOD isoenzyme in WAT may be a compensatory adaptation to oxidative stress.     

Extracellular superoxide dismutase in tissues from obese (ob/ob) mice

We have examined the protein content and gene expression of three superoxide dismutase (SOD) isoenzymes in eight tissues from obese ob/ob mice, particularly placing the focus on extracellular-SOD (EC-SOD) in the white adipose tissue (WAT). Obesity significantly increased EC-SOD level in liver, kidney, testis, gastrocnemius muscle, WAT, brown adipose tissue (BAT), and plasma, but significantly decreased the isoenzyme level in lung. Tumor necrosis factor-α and interleukin-1β contents in WAT were significantly higher in obese mice than in lean control mice. Immunohistochemically, both WAT and BAT from obese mice could be stained deeply with anti-mouse EC-SOD antibody compared with those from lean mice. Each primary culture per se almost time-dependently enhanced EC-SOD production, and overtly expressed its mRNA. The loss of heparin-binding affinity of EC-SOD type C with high affinity for heparin occurred in kidney of obese mice. These results suggest that the physiological importance of this SOD isoenzyme in WAT may be a compensatory adaptation to oxidative stress.     

Mitochondrial Ca2+ transport in lean and genetically obese (ob/ob) mice.

Isolated mitochondria from liver or brown adipose tissue of obese ob/ob mice demonstrated increased rates of Ca2+ uptake and release compared with those of lean mice. This enhanced transport activity was not found in mitochondria from kidney or skeletal muscle. Respiration-induced membrane potential was the same in mitochondria from lean and ob/ob mice. It is therefore concluded that the increased Ca2+ uptake rates reflect an activation of the Ca2+ uniporter rather than a change in the electrophoretic driving force. As mitochondria from pre-obese ob/ob mice did not show elevated rates of Ca2+ transport, the activated transport in the obese animals was thus a consequence of the state of obesity rather than being a direct effect of the ob/ob genotype. It is suggested that the enhanced activity of the Ca2+-transport pathways in liver and brown adipose tissue may alter metabolic functions in these tissues by modifying cytoplasmic or intramitochondrial Ca2+ concentrations.     

Adrenalectomy and steroid treatment in obese (ob/ob) and diabetic (db/db) mice

Adrenalectomy in young obese (ob/ob) and the diabetic (db/db) mouse slowed body weight gain. Treatment of adrenalectomized ob/ob mice with cortisone or deoxycorticosterone acetate (DOCA) significantly increased weight gain in a dose-related manner. Cortisone had no effect on weight gain on lean mice and treatment with dehydroepiandrosterone sulfate was without effect on either ob/ob or lean mice. The increment in body weight of adrenalectomized ob/ob mice treated with corticosterone and DOCA was associated with an increase in body weight and an increase in food intake. When adrenalectomy was performed at twenty-three days of age (five days before weaning), animals carrying the (db/db) genotype remained lighter than their normal littermates. These data document the importance of the adrenal gland and its steroids for the development and maintenance of many features of the obese or diabetes mouse.     

Islet cell surface antibodies in genetically obese hyperglycaemic (ob/ob) mice

A quantitative method for circulating islet cell surface antibodies (ICSA), based on the binding of¹²⁵I-protein A to insulin-producing RINm5F cells, was used to evaluate ICSA in plasma of 4- to 40-week-old Aston obese hyperglycaemic (ob/ob) mice and normal control (+/+) mice. RINm5F cells bound 2502±l196 c.p.m.¹²⁵I-protein A per l0⁵ cells (mean±S.D.,n=54) after incubation with +/+ plasma. ICSA positive plasma (defined as¹²⁵I-protein A binding, mean±2 S.D. of +/+ plasma) was detected in 3 out of 54+/+ mice and 3 out of 54 ob/ob mice. ICSA were not observed in ob/ob mice before the onset of diabetes (7 weeks of age), but were detected at 9, 20 and 40 weeks. At 20 weeks¹²⁵I-protein A binding produced by ob/ob plasma was 35% greater than +/+ plasma (P<0.05). The low occurrence of ICSA in ob/ob mice (6%) suggests that factors other than ICSA are responsible for B-cell dysfunction and eventual islet degeneration observed in Aston ob/ob mice.     

Effect of metformin on nitric oxide synthase in genetically obese (ob/ob) mice.

Genetically obese (ob/ob) mice were employed for the study of the effect of metformin on activity and expression of nitric oxide synthase (NOS ) in vitro and in vivo. For in vitro analysis, mouse liver extracts were used. For the in vivo study, (ob/ob) and their control litter mates (ob/c) mice were injected with specified amounts of metformin and the expression of NOS in the adipose tissue and hypothalamus was measured by Western blotting. Results show that metformin exhibited a biphasic effect on NOS activity in vitro. Expression of metformin was differentially altered in the hypothalamus and adipose tissues of the normal and ob/ob animals that were treated with metformin. Further, a significant decrease in food intake occurred in the (ob/ob) mice that received metformin. This decrease in food intake was not accompanied by changes in serum glucose. At inhibitory concentrations, hypothalamic NOS expression changes differentially in normal and ob/ob mice. In normal mice, metformin stimulated NOS expression, while in ob/ob mice there was an inhibition. NOS expression increased in brown adipose tissue of metformin treated control mice, while no such increase was observed in ob/ob mice. No effect of metformin was observed in white adipose tissue of control or obese mice. Thus, metformin may produce anorectic effects through modulation of NOS.     

Reduced levels of peroxisomal enzymes in the kidney of the genetically obese (ob/ob) mouse. Contrast with liver

Kidney post-nuclear supernatants from genetically lean and obese mice were subjected to subcellular fractionation by dual centrifugation through sucrose gradients in B XIV zonal rotors. Considerable purification of peroxisomes was achieved which allowed the demonstration of acyl-CoA beta-oxidation enzymes and carnitine acyltransferases in these organelles. Comparison of kidney peroxisome-enriched fractions from obese and lean mice indicated a likely relative depression in beta-oxidation enzymes in the obese animal. Measurement of catalase, acyl-CoA oxidase and carnitine octanoyltransferase in whole homogenate of liver and kidney of obese and lean mice revealed significantly reduced levels (to approximately 2/3) of these peroxisomal enzymes in the kidney of ob/ob mice. In contrast the specific activity of catalase and acyl-CoA oxidase was significantly raised in the liver of obese mice.     

Glucoregulatory effects of bombesin in lean and genetically obese hyperglycaemic (ob/ob) mice

1. Plasma glucose and insulin responses to bombesin were examined in 12-15-week-old 12 hr fasted lean and genetically obese hyperglycaemic (ob/ob) mice. 2. Bombesin (1 mg/kg ip) produced a prompt but transient increase of plasma insulin in lean mice (maximum increase of 50% at 5 min), and a more slowly generated but protracted insulin response in ob/ob mice (maximum increase of 80% at 30 min). Plasma glucose concentrations of both groups of mice were increased by bombesin (maximum increases of 40 and 48% respectively in lean and ob/ob mice at 15 min). 3. When administered with glucose (2 g/kg ip), bombesin (1 mg/kg ip) rapidly increased insulin concentrations of lean and ob/ob mice (maximum increases of 39 and 63% respectively at 5 min). Bombesin did not significantly alter the rise of plasma glucose after exogenous glucose administration to these mice. 4. The results indicate that bombesin exerts an insulin-releasing effect in lean and ob/ob mice. The greater insulin-releasing effect in ob/ob mice renders bombesin a possible component of the overactive entero-insular axis in the ob/ob mutant, especially if it acts within the islets as a neurotransmitter or paracrine agent.     

Glucagon-like peptide-1 and the entero-insular axis in obese hyperglycaemic (ob/ob) mice

The intestines of obese hyperglycaemic (ob/ob) mice contain greatly increased amounts of glucagon-like immunoreactive peptides. To investigate their role in the increased activity of the entero-insular axis of these mice, the insulin-releasing effect of glucagon-like peptide-1 (GLP-1) was examined in 24 hour fasted 12-15 weeks old ob/ob mice under conditions of basal and elevated glycaemia. Compared with glucagon (100 micrograms/kg ip), which produce an approximately 3-fold increase in basal plasma glucose and insulin concentrations, GLP-1 (100 micrograms/kg ip) produce a very small (less than 1 fold) increase in plasma insulin, with no significant change in plasma glucose. The insulin-releasing effect of glucagon, but not GLP-1 was increased by administration in combination with glucose (2 g/kg ip). The results indicate that GLP-1, which exhibits considerable sequence homology with glucagon, exerts only a weak insulin-releasing effect without a significant hyperglycaemic effect in ob/ob mice. Thus GLP-1 is unlikely to be an important endocrine component of the two over-active entero-insular axis in ob/ob mice.     

Effects of insulin on lipolysis and lipogenesis in adipocytes from genetically obese (ob/ob) mice.

A method for the preparation of isolated adipocytes from obese mice is described. Similar yields of adipocytes (50--60%), as judged by several criteria, are obtained from obese mice and lean controls. Few fat-globules and no free nuclei were observed in cell preparations, which are metabolically active, respond to hormonal control and appear to be representative of intact adipose tissue. Noradrenaline-stimulated lipolysis was inhibited by insulin, equally in adipocytes from lean and obese mice. Inhibition in obese cells required exogenous glucose, and the insulin dose--response curve was shifted to the right. Basal lipogenesis from glucose was higher in adipocytes from obese mice, and the stimulatory effect of insulin was greater in cells from obese mice compared with lean controls. A rightward shift in the insulin dose--response curve was again observed with cells from obese animals. This suggests that adipose tissue from obese mice is insulin-sensitive at the high blood insulin concentrations found in vivo. The resistance of obese mice to the hypoglycaemic effect of exogenous insulin and their impaired tolerance to glucose loading appear to be associated with an impaired insulin response by muscle rather than by adipose tissue.     

Unimpaired thermogenic response to noradrenaline in genetic (ob/ob) and hypothalamic (MSG) obese mice

The thermogenic response to noradrenaline administra-tion was investigated at 25° in two models of obese mice (genetic ob/ob obesity of the QEC strain and monosodium-glutamate-induced obesity) and in their respective lean littermates. Subcutaneous injections of a low dose of noradrenaline (I00 g/kg body wt.) eJevated metabolic rate by about 3096 in both obese models but not in their respective lean counterparts. In contrast, the increase in metabolic rate after injections of a high dose of noradrenaline (600 g/kg body wt.) was of a similar magnitude in both lean and obese animals: metabolic rate was increased by 70–80%. These results indicate that the overall whole body thermogenic capacity is unimpaired at room temperature in this QEC strain of ob/ob mice and in the hypothalamic damaged obese mice. Obesity in these models is therefore not associated with a reduced ability to respond to noradrenaline but could rather be due to a failure to release noradrenaline.     

Different insulin-secretory responses to calcium-channel blockers in islets of lean and obese (ob/ob) mice.

The purpose of these experiments was to determine whether the activity of the voltage-dependent Ca2+ channel was modulated in the same manner in islets of the ob/ob mouse as in islets of homozygous lean mice of the same strain. The effect of agents that are known to alter the concentrations and movements of intracellular Ca2+ were investigated in relation to glucose-stimulated insulin secretion and in relation to the effect of forskolin. In islets of obese mice, verapamil and nifedipine both inhibited glucose-induced insulin release, nifedipine being the more potent inhibitor. Forskolin-stimulated secretion was inhibited either not at all (verapamil) or much less (nifedipine) in islets of the ob/ob mouse compared with those of lean mice. At basal glucose concentrations, verapamil initiated insulin secretion in islets of the ob/ob mouse and acted synergistically with forskolin to evoke a secretory activity that was 3-fold greater than that evoked by 20 mM-glucose. Nifedipine also initiated secretion at basal glucose concentrations and acted synergistically with forskolin, but its effect was considerably smaller than that of verapamil. A comparison of the effect of forskolin in the presence of Ca2+-channel blockers and in the absence of Ca2+ suggests that, in the obese mouse, the operation of the voltage-dependent Ca2+ channel is impaired.